Validation of Self-Monitoring Devices Supporting Sodium Intake Reduction: An Experimental Feeding Study Using Standardized Low-Salt and High-Salt Meals among Healthy Japanese Volunteers

Motoki Arakawa; Takayuki Watanabe; Koya Suzuki; Junichi Nishino; Hiromitsu Sekizuka; Toshiyuki Iwahori; Shin-Ichi Ono; Shinji Hidaka

doi:10.1159/000519097

Validation of Self-Monitoring Devices Supporting Sodium Intake Reduction: An Experimental Feeding Study Using Standardized Low-Salt and High-Salt Meals among Healthy Japanese Volunteers

Ann Nutr Metab. 2021;77(5):289-298. doi: 10.1159/000519097. Epub 2021 Sep 23.

Authors

Motoki Arakawa¹, Takayuki Watanabe¹, Koya Suzuki¹, Junichi Nishino¹, Hiromitsu Sekizuka², Toshiyuki Iwahori³, Shin-Ichi Ono⁴, Shinji Hidaka¹

Affiliations

¹ Laboratory of Pharmaceutical Regulatory Science, Faculty of Practical Pharmaceutical Sciences, School of Pharmacy, Nihon University, Chiba, Japan.
² Department of Internal Medicine, Fujitsu Clinic, Kanagawa, Japan.
³ Department of Public Health, Shiga University of Medical Science, Shiga, Japan.
⁴ Laboratory of Clinical Medicine, Faculty of Applied Pharmaceutical Sciences, School of Pharmacy, Nihon University, Chiba, Japan.

PMID: 34569491
DOI: 10.1159/000519097

Abstract

Introduction: Although several approaches for approximating daily Na intake and the Na/K ratio using casual urine are available, the most useful method remains unclear during daily practice and at home.

Methods: Twenty-seven participants measured their casual urinary Na/K ratio repeatedly using a Na/K ratio monitor and also measured overnight urine once daily using a monitoring device which delivers on-site feedback to estimate their salt intake under unrestricted, low-salt (LS) (6 g/day), and high-salt (HS) (12 g/day) diets.

Results: The monitoring method utilizing overnight urine to estimate daily Na remained insensitive, resulting in significant overestimation during the LS diet and underestimation during the HS diet periods; estimated salt intake during the LS and HS diet periods plateaued at 7-8 g/day and 9-10 g/day within 3 day; mean estimated salt intake was 11.3 g/day, 7.9 g/day, and 9.8 g/day on the last day of the unrestricted, LS, and HS diets; the coefficient of variation (CV) of the estimated Na intake was 0.23 and 0.17 in the latter half of the low- and high-salt diet periods, respectively. The mean urinary Na/K molar ratio was 5.6, 2.5, and 5.3 on the last day of the unrestricted, LS, and HS diets; the CV of the daily mean Na/K ratio was 0.41 and 0.36 in the latter half of the LS and HS diet periods, respectively. The urinary Na/K ratio during the LS and HS diet periods plateaued within 2 days. The monitoring method based on the daily mean of the casual urinary Na/K ratio reflected the actual change in Na intake, and the estimated value tracked the actual changes in salt intake with smaller difference than the overnight urine estimates when using the estimation coefficient set at 2; estimated salt intake during the LS and HS diet periods plateaued at 5-6 g/day and 10-12 g/day within 2-3 day; mean estimated salt intake was 11.0 g/day, 5.7 g/day, and 10.7 g/day on the last day of the unrestricted, LS, and HS diets, respectively.

Discussion/conclusion: Estimates of daily Na intake derived from overnight urine may remain insensitive during dietary interventions. The urinary Na/K ratio reflects the actual change in Na intake during dietary modification and may serve as a practical marker, particularly during short-term interventions. Conversion from the urinary Na/K ratio to estimated salt intake may be useful, if the coefficient was set appropriate by further investigations.

Keywords: Human nutrition; Hypertension; Urinary sodium/potassium ratio.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Diet, Sodium-Restricted
Humans
Japan
Meals
Sodium Chloride, Dietary*
Sodium, Dietary*
Volunteers

Substances

Sodium Chloride, Dietary
Sodium, Dietary